Pub Date : 2023-09-01DOI: 10.1017/s0024282923000099
Gintaras Kantvilas
Abstract Five species of Schaereria Körb. are known to occur in Australia (including Tasmania). The new species S. australis Kantvilas is described from alpine Tasmania and New South Wales; it is characterized by a thallus lacking lichen substances, apothecia with only brown pigments, and ellipsoid, uniseriate ascospores, 10−17 × 6−9 μm. Also treated are: S. bullata Kantvilas, endemic to Tasmania; S. dolodes (Nyl. ex Hasse) Schmull & T. Sprib., first described from North America and recorded here for the first time from the Southern Hemisphere (Tasmania); the bipolar S. fuscocinerea (Nyl.) Clauzade & Cl. Roux and the Australian endemic S. xerophila Rambold & H. Mayrhofer, both recorded for the first time from Tasmania. The species are illustrated and an identification key is provided.
{"title":"The genus <i>Schaereria</i> Körb. in Australia","authors":"Gintaras Kantvilas","doi":"10.1017/s0024282923000099","DOIUrl":"https://doi.org/10.1017/s0024282923000099","url":null,"abstract":"Abstract Five species of Schaereria Körb. are known to occur in Australia (including Tasmania). The new species S. australis Kantvilas is described from alpine Tasmania and New South Wales; it is characterized by a thallus lacking lichen substances, apothecia with only brown pigments, and ellipsoid, uniseriate ascospores, 10−17 × 6−9 μm. Also treated are: S. bullata Kantvilas, endemic to Tasmania; S. dolodes (Nyl. ex Hasse) Schmull & T. Sprib., first described from North America and recorded here for the first time from the Southern Hemisphere (Tasmania); the bipolar S. fuscocinerea (Nyl.) Clauzade & Cl. Roux and the Australian endemic S. xerophila Rambold & H. Mayrhofer, both recorded for the first time from Tasmania. The species are illustrated and an identification key is provided.","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"135433355","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-09-01DOI: 10.1017/s0024282923000464
Zdeněk Palice, Jiří Malíček, Jan Vondrák, Christian Printzen
Abstract A unique crustose lichen species was recently documented from various types of preserved forests across boreal and temperate Europe (Norway, Ukraine, the Czech Republic) and the Caucasus (Russia). It is formally described here as the new species Biatora amylacea . A phylogeny based on ITS and mtSSU sequences demonstrates that it belongs to an isolated group within the core of Biatora s. lat., together with the recently described B. radicicola . It is a distinctive taxon within the genus on account of its amyloid exciple, otherwise known only from members of the Biatora rufidula group. The new species is also characterized by amyloid thalline hyphae and the production of soredia with a blue-green pigment. This microlichen may serve as a bioindicator species of old-growth forests.
摘要:最近在欧洲北部和温带地区(挪威、乌克兰、捷克共和国)和高加索地区(俄罗斯)的不同类型保护森林中发现了一种独特的甲壳地衣物种。它在这里被正式描述为新种Biatora amylacea。基于ITS和mtSSU序列的系统发育分析表明,它属于Biatora s. lat核心的一个孤立类群。以及最近发现的根尖芽孢杆菌。它是该属中一个独特的分类单元,因为它的淀粉样样样例,否则只从Biatora rufidula组的成员中知道。新物种还具有淀粉样菌体菌丝和产生蓝绿色色素的sodia的特征。这种微地衣可以作为原生林的生物指示物种。
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Pub Date : 2023-09-01DOI: 10.1017/s0024282923000373
Jolanta Miadlikowska, Nicolas Magain, Ian D. Medeiros, Carlos J. Pardo-De la Hoz, Ignazio Carbone, Scott LaGreca, Thomas Barlow, Leena Myllys, Michaela Schmull, François Lutzoni
Abstract Peltigera globulata Miadl. & Magain, a new species in the P. ponojensis/monticola species complex of section Peltigera , is formally described. This clade was previously given the interim designation Peltigera sp. 17. It is found in sun-exposed and xeric habitats at high altitudes in Peru and Ecuador. Peltigera globulata can be easily recognized by its irregularly globulated margins covered mostly by thick, white pruina, somewhat resembling the sorediate thallus margins of P. soredians , another South American species from section Peltigera . The hypervariable region of ITS1 (ITS1-HR), which is in general highly variable among species of section Peltigera , does not have diagnostic value for species identification within the P. ponojensis/monticola complex. Nevertheless, no significant level of gene flow was detected among eight lineages representing a clade of putative species (including P. globulata ) within this complex. ITS sequences from the holotype specimens of P. monticola Vitik. (collected in 1979) and P. soredians Vitik. (collected in 1981) and lectotype specimens of P. antarctica C. W. Dodge (collected in 1941) and P. aubertii C. W. Dodge (collected in 1952) were successfully obtained through Sanger and Illumina metagenomic sequencing. BLAST results of these sequences revealed that the type specimen of P. monticola falls within the P. monticola/ponojensis 7 clade, which represents P. monticola s. str., and confirmed that the type specimen of P. aubertii falls within a clade identified previously as P. aubertii based on morphology. The ITS sequence from the type specimen of P. soredians , which superficially resembles P. globulata , confirms its placement in the P. rufescens clade. Finally, we discovered that the name P. antarctica was erroneously applied to a lineage in the P. ponojensis/monticola clade. The ITS sequence from the type specimen of P. antarctica represents a lineage within the P. rufescens clade, which is sister to the P. ponojensis/monticola clade.
摘要:球藻(Peltigera globullata Miadl)。,正式描述了Peltigera剖面P. ponojensis/monticola种复合体中的一个新种Magain。这个分支以前被临时命名为Peltigera sp. 17。它被发现在秘鲁和厄瓜多尔高海拔的阳光照射和干燥的栖息地。globulata Peltigera可以很容易地通过其不规则的球形边缘被厚厚的白色毛覆盖而被识别,有点类似于P. soredians(来自Peltigera组的另一个南美物种)的单一菌体边缘。ITS1的高变区(ITS1- hr)在Peltigera剖面的种间通常是高度可变的,但对P. ponojensis/monticola复合体的种鉴定不具有诊断价值。然而,在这个复合体内代表一个假定物种(包括P. globulata)的分支的8个谱系中,没有检测到显著水平的基因流动。蒙地花全模标本ITS序列分析。(收集于1979年)和P. soredians Vitik。通过Sanger和Illumina元基因组测序,成功获得了p.a nantarctica C. W. Dodge(1941年)和p.a aubertii C. W. Dodge(1952年)的选型标本。这些序列的BLAST结果表明,该模式标本属于monticola/ponojensis 7进化支,代表了monticola s.s str.,并证实了该模式标本属于先前根据形态学鉴定为aubertii的进化支。P. soredians的模式标本的ITS序列,表面上类似于P. globulata,证实了它在P. rufescens分支中的位置。最后,我们发现南极支原猿这个名字被错误地用在了ponojensis/monticola分支的一个谱系上。来自南极拟南猿模式标本的ITS序列代表了P. rufescens分支中的一个谱系,它是P. ponojensis/monticola分支的姐妹。
{"title":"Towards a nomenclatural clarification of the <i>Peltigera ponojensis/monticola</i> clade including metagenomic sequencing of type material and the introduction of <i>P. globulata</i> Miadl. & Magain sp. nov.","authors":"Jolanta Miadlikowska, Nicolas Magain, Ian D. Medeiros, Carlos J. Pardo-De la Hoz, Ignazio Carbone, Scott LaGreca, Thomas Barlow, Leena Myllys, Michaela Schmull, François Lutzoni","doi":"10.1017/s0024282923000373","DOIUrl":"https://doi.org/10.1017/s0024282923000373","url":null,"abstract":"Abstract Peltigera globulata Miadl. & Magain, a new species in the P. ponojensis/monticola species complex of section Peltigera , is formally described. This clade was previously given the interim designation Peltigera sp. 17. It is found in sun-exposed and xeric habitats at high altitudes in Peru and Ecuador. Peltigera globulata can be easily recognized by its irregularly globulated margins covered mostly by thick, white pruina, somewhat resembling the sorediate thallus margins of P. soredians , another South American species from section Peltigera . The hypervariable region of ITS1 (ITS1-HR), which is in general highly variable among species of section Peltigera , does not have diagnostic value for species identification within the P. ponojensis/monticola complex. Nevertheless, no significant level of gene flow was detected among eight lineages representing a clade of putative species (including P. globulata ) within this complex. ITS sequences from the holotype specimens of P. monticola Vitik. (collected in 1979) and P. soredians Vitik. (collected in 1981) and lectotype specimens of P. antarctica C. W. Dodge (collected in 1941) and P. aubertii C. W. Dodge (collected in 1952) were successfully obtained through Sanger and Illumina metagenomic sequencing. BLAST results of these sequences revealed that the type specimen of P. monticola falls within the P. monticola/ponojensis 7 clade, which represents P. monticola s. str., and confirmed that the type specimen of P. aubertii falls within a clade identified previously as P. aubertii based on morphology. The ITS sequence from the type specimen of P. soredians , which superficially resembles P. globulata , confirms its placement in the P. rufescens clade. Finally, we discovered that the name P. antarctica was erroneously applied to a lineage in the P. ponojensis/monticola clade. The ITS sequence from the type specimen of P. antarctica represents a lineage within the P. rufescens clade, which is sister to the P. ponojensis/monticola clade.","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"135434123","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-09-01DOI: 10.1017/s0024282923000518
An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
{"title":"LIC volume 55 issue 5 Cover and Front matter","authors":"","doi":"10.1017/s0024282923000518","DOIUrl":"https://doi.org/10.1017/s0024282923000518","url":null,"abstract":"An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"135434129","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-09-01DOI: 10.1017/s0024282923000452
Sergio E. Favero-Longo, Enrica Matteucci, Daniele Castelli, Paola Iacomussi, Luca Martire, Maria Giuseppina Ruggiero, Alessandro Segimiro
Abstract Environmental control strategies are commonly practised to limit biodeterioration issues threatening indoor cultural heritage objects, while they are still poorly exploited for the conservation of outdoor stone heritage surfaces, including rock art. In this study, we evaluated the environmental factors driving the diversity and abundance of lithobiontic communities in the Rock Engravings National Park of Naquane (UNESCO WHS n. 94, Italy). The survey considered 23 rocks that had been cleaned in the last three (3YC) or twelve (12YC) years or more than 40 years ago (NRC). A cyanobacteria-dominated biofilm and lichens (37 taxa) were the most widespread and abundant lithobiontic components, prevailing on 3YC–12YC and NRC rocks, respectively. On the latter, a turnover of xerophytic and meso-hygrophytic lichen communities was observed. On 3YC–12YC rocks lichen colonization, if present, was limited to nitrophytic species, including common epiphytes from surrounding trees and a small number of meso-hygrophytic species, with a prevalence of asexual reproductive strategies. Multivariate analyses including environmental parameters (canonical correspondence analyses) indicated that tree cover and the presence of bare or vegetated ground upstream of the rocks, probably prolonging wetness and providing nutrients by water transport, are the factors mostly related to the microbial and lichen recolonization of 3YC–12YC surfaces. On this basis, an experiment on preventive conservation was conducted, consisting of a new cleaning of a strongly recolonized 3YC surface combined with the building of a small wall to protect part of the rock from prolonged water fluxes. The fluorimetric and colorimetric monitoring of the rock surface, carried out 40 months after this new cleaning intervention, displayed recolonization on the unprotected area only, indicating the potential of preventive conservation strategies in outdoor environments.
环境控制策略通常用于限制威胁室内文化遗产的生物退化问题,而它们仍然很少用于保护室外石头遗产表面,包括岩石艺术。在这项研究中,我们评估了影响Naquane岩石雕刻国家公园(UNESCO WHS n. 94, Italy)岩生生物群落多样性和丰度的环境因素。该调查考虑了在过去3年(3YC)或12年(12YC)或40多年前(NRC)被清洗过的23块岩石。以蓝藻为主的生物膜和地衣(37个类群)是最广泛和最丰富的岩生生物成分,分别分布在3YC-12YC和NRC岩石上。在后者上,观察到旱生和中湿生地衣群落的更替。在3YC-12YC岩石上,如果存在地衣定植,则仅限于硝化物种,包括来自周围树木的常见附生植物和少数中湿生物种,并普遍采用无性繁殖策略。包括环境参数在内的多变量分析(典型对应分析)表明,树木覆盖和岩石上游裸露或植被的存在,可能延长了水分并通过水运提供养分,是3YC-12YC表面微生物和地衣再定殖的主要因素。在此基础上,进行了一项预防性保护实验,包括对一个强再聚落的3YC表面进行新的清理,并建立一个小墙来保护部分岩石免受长时间水通量的影响。在这项新的清洁干预措施实施40个月后,对岩石表面进行的荧光和比色监测显示,仅在未受保护的地区重新定殖,表明在室外环境中采取预防性保护战略的潜力。
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Pub Date : 2023-09-01DOI: 10.1017/s0024282923000385
Julia V. Gerasimova, Volker Otte, Irina N. Urbanavichene, Gennadii P. Urbanavichus, Andreas Beck
Abstract During a study of the incompletely known lichen flora of the Caucasus, we analyzed 237 specimens of corticolous Bacidia s. str. collected in the Northern and Southern Caucasus, including Armenia, Azerbaijan, Georgia, and Russia. Of these, 54 specimens belonging to 11 species of Bacidia s. str. were selected for molecular studies, representing the observed morphological variability of the genus. We obtained 142 sequences from three RNA-coding genes (nrITS, nrLSU, and mtSSU) and two protein-coding genes ( RPB 1 and RPB 2). The single and concatenated datasets were complemented with Bacidia s. str. sequences from GenBank and subjected to Bayesian inference and two maximum likelihood analyses (RAxML and IQ-TREE). The resulting trees yielded highly concordant topologies of the groups and corresponded with previous results, supporting two main clades correlating with apothecia pigmentation. Our analyses are the first to reveal the presence of Bacidia heterochroa in the Caucasus. An exceptionally high degree of morphological plasticity was found in the Rubella and Suffusa groups. As a result of morphological examination and phylogenetic results, B. caucasica (Suffusa group) was described as new to science. Furthermore, two putative taxa in the Rubella group, Bacidia inconspicua ined. and B. maritima ined., were introduced. This study furthers our understanding and documentation of the understudied lichen flora of the Caucasus, bringing the total number of Bacidia species for the region to 13.
在对高加索地区不完全了解的地衣区系的研究中,我们分析了在北高加索和南高加索地区(包括亚美尼亚、阿塞拜疆、格鲁吉亚和俄罗斯)采集的237份皮质芽孢杆菌(Bacidia s. str.)标本。其中,选取了11种的54个标本进行了分子生物学研究,反映了该属的形态变异。我们从三个rna编码基因(nrITS, nrLSU和mtSSU)和两个蛋白质编码基因(rpb1和rpb2)中获得142个序列。将单个和连接的数据集与GenBank中的芽孢杆菌s. str.序列进行补充,并进行贝叶斯推断和两个最大似然分析(RAxML和IQ-TREE)。由此产生的树产生了高度一致的群体拓扑结构,并与先前的结果相对应,支持与药膏色素沉着相关的两个主要分支。我们的分析首次揭示了高加索地区异色芽孢杆菌的存在。在风疹和萨福莎群中发现了异常高的形态可塑性。根据形态学检查和系统发育结果,将白桦属植物描述为新物种。此外,在风疹群中有两个假定的分类群,隐芽孢杆菌。B.海上的;,被介绍。本研究进一步加深了我们对高加索地区未被充分研究的地衣植物区系的认识和文献记录,使该地区的芽孢杆菌属植物总数达到13种。
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Pub Date : 2023-09-01DOI: 10.1017/s0024282923000415
Robert Lücking, Bibiana Moncada, Manuela Dal Forno
Abstract We present a novel identification tool called PhyloKey , based on the method of morphology-based, phylogenetic binning developed within the software package RAxML. This method takes a reference data set of species for which both molecular and morphological data are available, computes a molecular reference tree, maps the morphological characters on the tree, and computes weights based on their level of consistency versus homoplasy using maximum likelihood (ML) and maximum parsimony (MP). Additional units for which only morphological data are known are then binned onto the reference tree, calculating bootstrap support values for alternative placements. This approach is modified here to work as an identification tool which uses the same character coding approach as interactive keys. However, rather than identifying individual samples through a progressive filtering process when entering or selecting characters, query samples are binned in batch mode to all possible alternative species in the tree, with each placement receiving a bootstrap support adding to 100% for all alternative placements. In addition to the fact that, after scoring a character matrix, a large number of specimens can be identified at once in short time, all possible alternative identifications are immediately apparent and can be evaluated based on their bootstrap support values. We illustrate this approach using the basidiolichen genus Cora , which was recently shown to contain hundreds of species. We also demonstrate how the PhyloKey approach can aid the restudying of herbarium samples, adding further value to these collections and contributing with large quantitative data matrices to ‘non-molecular museomics’. Our analysis showed that PhyloKey identifies species correctly with as low as 50% of the characters sampled, depending on the nature of the reference tree and the character weighting scheme. Overall, a molecular reference tree worked best, but a randomized reference tree gave more consistent results, whereas a morphological reference tree performed less well. Surprisingly, even character weighting gave the best results, followed by parsimony weighting and then maximum likelihood weighting.
{"title":"<i>PhyloKey</i>: a novel method to rapidly and reliably identify species in complex, species-rich genera, and an opportunity for ‘non-molecular museomics’","authors":"Robert Lücking, Bibiana Moncada, Manuela Dal Forno","doi":"10.1017/s0024282923000415","DOIUrl":"https://doi.org/10.1017/s0024282923000415","url":null,"abstract":"Abstract We present a novel identification tool called PhyloKey , based on the method of morphology-based, phylogenetic binning developed within the software package RAxML. This method takes a reference data set of species for which both molecular and morphological data are available, computes a molecular reference tree, maps the morphological characters on the tree, and computes weights based on their level of consistency versus homoplasy using maximum likelihood (ML) and maximum parsimony (MP). Additional units for which only morphological data are known are then binned onto the reference tree, calculating bootstrap support values for alternative placements. This approach is modified here to work as an identification tool which uses the same character coding approach as interactive keys. However, rather than identifying individual samples through a progressive filtering process when entering or selecting characters, query samples are binned in batch mode to all possible alternative species in the tree, with each placement receiving a bootstrap support adding to 100% for all alternative placements. In addition to the fact that, after scoring a character matrix, a large number of specimens can be identified at once in short time, all possible alternative identifications are immediately apparent and can be evaluated based on their bootstrap support values. We illustrate this approach using the basidiolichen genus Cora , which was recently shown to contain hundreds of species. We also demonstrate how the PhyloKey approach can aid the restudying of herbarium samples, adding further value to these collections and contributing with large quantitative data matrices to ‘non-molecular museomics’. Our analysis showed that PhyloKey identifies species correctly with as low as 50% of the characters sampled, depending on the nature of the reference tree and the character weighting scheme. Overall, a molecular reference tree worked best, but a randomized reference tree gave more consistent results, whereas a morphological reference tree performed less well. Surprisingly, even character weighting gave the best results, followed by parsimony weighting and then maximum likelihood weighting.","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"135433508","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-09-01DOI: 10.1017/s0024282923000476
Alba Yánez-Ayabaca, Ángel Benítez, Rosa Batallas Molina, Domenica Naranjo, Javier Etayo, María Prieto, Gabriela Cevallos, Erika Caicedo, Klara Scharnagl, Britton McNerlin, Santiago Swanson, Gregorio Aragón, Noelia Fernández-Prado, Isabel Martínez, Ana Rosa Burgaz, Yadira González, Jorge Déleg, Marlon Vega, Pieter van den Boom, Nicolas Magain, Fredy Nugra, Tania Oña, Patricia Jaramillo Díaz, Justine Villalba-Alemán, Bibiana Moncada, Jesús Hernández, Edward Erik Gilbert, Frank Bungartz
Abstract A checklist of Lichen-forming, Lichenicolous and Allied Fungi of Ecuador is presented with a total of 2599 species, of which 39 are reported for the first time from the country. The names of three species, Hypotrachyna montufariensis , H. subpartita and Sticta hypoglabra , previously not validly published, are validated. Pertusaria oahuensis , originally introduced by Magnusson as ‘ ad interim ’, is validated as Lepra oahuensis . The form Leucodermia leucomelos f. albociliata is validated. Two new combinations, Fissurina tectigera and F. timida , are made, and Physcia mobergii is introduced as a replacement name for the illegitimate P. lobulata Moberg non (Flörke) Arnold. In an initial step, the checklist was compiled by reviewing literature records of Ecuadorian lichen biota spanning from the late 19th century to the present day. Subsequently, records were added based on vouchers from 56 collections participating in the Consortium of Lichen Herbaria , a Symbiota-based biodiversity platform with particular focus on, but not exclusive to, North and South America. Symbiota provides sophisticated tools to manage biodiversity data, such as occurrence records, a taxonomic thesaurus, and checklists. The thesaurus keeps track of frequently changing names, distinguishing taxa currently accepted from ones considered synonyms. The software also provides tools to create and manage checklists, with an emphasis on selecting vouchers based on occurrence records that can be verified for identification accuracy. Advantages and limitations of creating checklists in Symbiota versus traditional ways of compiling these lists are discussed. Traditional checklists are well suited to document current knowledge as a ‘snapshot in time’. They are important baselines, frequently used by ecologists and conservation scientists as an established naming convention for citing species reported from a country. Compiling these lists, however, requires an immense effort, only to inadequately address the dynamic nature of scientific discovery. Traditional checklists are thus quickly out of date, particularly in groups with rapidly changing taxonomy, such as lichenized fungi. Especially in megadiverse countries, where new species and new occurrences continue to be discovered, traditional checklists are not easily updated; these lists necessarily fall short of efficiently managing immense data sets, and they rely primarily on secondary evidence (i.e. literature records rather than specimens). Ideally, best practices make use of dynamic database platforms such as Symbiota to assess occurrence records based both on literature citations and voucher specimens. Using modern data management tools comes with a learning curve. Systems like Symbiota are not necessarily intuitive and their functionality can still be improved, especially when handling literature records. However, online biodiversity data platforms have much potential in more efficiently managing and assessing large biod
摘要整理了厄瓜多尔地衣形成真菌、地衣科真菌及相关真菌的名录,共发现2599种,其中39种为首次报道。三个物种的名称,Hypotrachyna montufariensis, H. subpartita和Sticta hypoglabra,以前没有有效发表,现在得到了验证。瓦胡百日咳(Pertusaria oahuensis),最初由Magnusson作为“临时”引入,现在被确认为Lepra oahuensis。证实了白僵菌的形态。两个新的组合,Fissurina tectigera和F. timida,和physia mobergii被引入作为非法P. lobulata Moberg non (Flörke) Arnold的替代名称。在最初的步骤中,通过回顾从19世纪末到现在厄瓜多尔地衣生物群的文献记录,编制了清单。随后,根据参与地衣标本馆联合会的56个标本的代金券添加了记录。地衣标本馆联合会是一个以共生体为基础的生物多样性平台,特别关注北美和南美,但并不仅限于北美和南美。Symbiota提供了复杂的工具来管理生物多样性数据,如发生记录、分类词典和清单。同义词典跟踪频繁变化的名称,区分当前接受的分类群和被认为是同义词的分类群。该软件还提供了创建和管理检查清单的工具,重点是根据可以验证识别准确性的发生记录选择凭证。讨论了在Symbiota中创建清单与传统编制清单方法相比的优点和局限性。传统的检查表非常适合将当前知识作为“及时快照”记录下来。它们是重要的基线,经常被生态学家和自然保护科学家用作引用一个国家报告的物种的既定命名惯例。然而,编制这些清单需要付出巨大的努力,只是不足以说明科学发现的动态本质。因此,传统的清单很快就过时了,特别是在分类法快速变化的群体中,比如地衣真菌。特别是在生物多样性巨大的国家,新物种和新现象不断被发现,传统的清单不容易更新;这些清单必然无法有效管理庞大的数据集,而且它们主要依赖于次要证据(即文献记录而不是标本)。理想情况下,最佳实践是利用Symbiota等动态数据库平台来评估基于文献引用和凭证样本的事件记录。使用现代数据管理工具需要一个学习曲线。像Symbiota这样的系统并不一定是直观的,它们的功能仍然可以改进,特别是在处理文学记录时。然而,在线生物多样性数据平台在更有效地管理和评估大型生物多样性数据集方面具有很大的潜力,特别是在调查厄瓜多尔等生物多样性大国的地衣生物群时。
{"title":"Towards a dynamic checklist of lichen-forming, lichenicolous and allied fungi of Ecuador – using the <i>Consortium of Lichen Herbaria</i> to manage fungal biodiversity in a megadiverse country","authors":"Alba Yánez-Ayabaca, Ángel Benítez, Rosa Batallas Molina, Domenica Naranjo, Javier Etayo, María Prieto, Gabriela Cevallos, Erika Caicedo, Klara Scharnagl, Britton McNerlin, Santiago Swanson, Gregorio Aragón, Noelia Fernández-Prado, Isabel Martínez, Ana Rosa Burgaz, Yadira González, Jorge Déleg, Marlon Vega, Pieter van den Boom, Nicolas Magain, Fredy Nugra, Tania Oña, Patricia Jaramillo Díaz, Justine Villalba-Alemán, Bibiana Moncada, Jesús Hernández, Edward Erik Gilbert, Frank Bungartz","doi":"10.1017/s0024282923000476","DOIUrl":"https://doi.org/10.1017/s0024282923000476","url":null,"abstract":"Abstract A checklist of Lichen-forming, Lichenicolous and Allied Fungi of Ecuador is presented with a total of 2599 species, of which 39 are reported for the first time from the country. The names of three species, Hypotrachyna montufariensis , H. subpartita and Sticta hypoglabra , previously not validly published, are validated. Pertusaria oahuensis , originally introduced by Magnusson as ‘ ad interim ’, is validated as Lepra oahuensis . The form Leucodermia leucomelos f. albociliata is validated. Two new combinations, Fissurina tectigera and F. timida , are made, and Physcia mobergii is introduced as a replacement name for the illegitimate P. lobulata Moberg non (Flörke) Arnold. In an initial step, the checklist was compiled by reviewing literature records of Ecuadorian lichen biota spanning from the late 19th century to the present day. Subsequently, records were added based on vouchers from 56 collections participating in the Consortium of Lichen Herbaria , a Symbiota-based biodiversity platform with particular focus on, but not exclusive to, North and South America. Symbiota provides sophisticated tools to manage biodiversity data, such as occurrence records, a taxonomic thesaurus, and checklists. The thesaurus keeps track of frequently changing names, distinguishing taxa currently accepted from ones considered synonyms. The software also provides tools to create and manage checklists, with an emphasis on selecting vouchers based on occurrence records that can be verified for identification accuracy. Advantages and limitations of creating checklists in Symbiota versus traditional ways of compiling these lists are discussed. Traditional checklists are well suited to document current knowledge as a ‘snapshot in time’. They are important baselines, frequently used by ecologists and conservation scientists as an established naming convention for citing species reported from a country. Compiling these lists, however, requires an immense effort, only to inadequately address the dynamic nature of scientific discovery. Traditional checklists are thus quickly out of date, particularly in groups with rapidly changing taxonomy, such as lichenized fungi. Especially in megadiverse countries, where new species and new occurrences continue to be discovered, traditional checklists are not easily updated; these lists necessarily fall short of efficiently managing immense data sets, and they rely primarily on secondary evidence (i.e. literature records rather than specimens). Ideally, best practices make use of dynamic database platforms such as Symbiota to assess occurrence records based both on literature citations and voucher specimens. Using modern data management tools comes with a learning curve. Systems like Symbiota are not necessarily intuitive and their functionality can still be improved, especially when handling literature records. However, online biodiversity data platforms have much potential in more efficiently managing and assessing large biod","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"135433816","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-09-01DOI: 10.1017/s0024282923000427
Sergio Pérez-Ortega, Yolanda Turégano, Måns Svensson, Juan Carlos Zamora
Abstract The new genus Nimisora Pérez-Ort., M. Svenss. & J. C. Zamora is introduced to accommodate a puzzling lecideoid epiphyte common in the central Iberian Peninsula. Nimisora is characterized by the following combination of characters: lecideoid apothecia, excipulum composed of sparingly branched radiating hyphae with narrow lumina, thick walls and swollen terminal cells, the presence of a brown K+ olivaceous green pigment in the epihymenium, an ascus tip similar to the Bacidia -type, and the presence of simple ellipsoid ascospores. Molecular analyses based on nrITS, nrLSU and mtSSU sequences unequivocally place the new genus within the Lecanoraceae ; however, its phylogenetic affinities with other genera of the family remain largely unresolved. Comparisons with the morphologically closest genera are provided. The single species of the genus, Nimisora iberica Pérez-Ort., Turégano, M. Svenss. & J. C. Zamora sp. nov., is also described as new to science.
{"title":"<i>Nimisora</i> (<i>Lecanoraceae</i>, <i>Ascomycota</i>), a new genus for a common lecideoid epiphytic species from the central Iberian Peninsula","authors":"Sergio Pérez-Ortega, Yolanda Turégano, Måns Svensson, Juan Carlos Zamora","doi":"10.1017/s0024282923000427","DOIUrl":"https://doi.org/10.1017/s0024282923000427","url":null,"abstract":"Abstract The new genus Nimisora Pérez-Ort., M. Svenss. & J. C. Zamora is introduced to accommodate a puzzling lecideoid epiphyte common in the central Iberian Peninsula. Nimisora is characterized by the following combination of characters: lecideoid apothecia, excipulum composed of sparingly branched radiating hyphae with narrow lumina, thick walls and swollen terminal cells, the presence of a brown K+ olivaceous green pigment in the epihymenium, an ascus tip similar to the Bacidia -type, and the presence of simple ellipsoid ascospores. Molecular analyses based on nrITS, nrLSU and mtSSU sequences unequivocally place the new genus within the Lecanoraceae ; however, its phylogenetic affinities with other genera of the family remain largely unresolved. Comparisons with the morphologically closest genera are provided. The single species of the genus, Nimisora iberica Pérez-Ort., Turégano, M. Svenss. & J. C. Zamora sp. nov., is also described as new to science.","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"135433967","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-07-01DOI: 10.1017/s0024282923000348
{"title":"LIC volume 55 issue 3-4 Cover and Front matter","authors":"","doi":"10.1017/s0024282923000348","DOIUrl":"https://doi.org/10.1017/s0024282923000348","url":null,"abstract":"","PeriodicalId":18124,"journal":{"name":"Lichenologist","volume":null,"pages":null},"PeriodicalIF":1.4,"publicationDate":"2023-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"47344453","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
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